Hybrid Approaches-Based Sliding-Mode Control for pH Process Control

Abstract: This paper presents two hybrid control topologies; the topologies are designed by combining artificial intelligence approaches and sliding-mode control methodology. The first topology mixes the learning algorithm for multivariable data analysis (LAMDA) approach with sliding-mode control. The second offers a Takagi–Sugeno multimodel approach, internal model, and sliding-mode control. The process under study is a nonlinear pH neutralization process with high nonlinearities and time-varying parameters. The pH pro… Show more

“…In ref , a SMC was designed from a FOPDT to control nonlinear systems assuming that the controller robustness will compensate for the modeling errors resulting from linearizing the nonlinear process model. The SMC developed based on a FOPDT model of the actual process has been used for different approaches, as shown in refs , , , and − .…”

Dual-Mode Based Sliding Mode Control Approach for Nonlinear Chemical Processes

“…In ref , a SMC was designed from a FOPDT to control nonlinear systems assuming that the controller robustness will compensate for the modeling errors resulting from linearizing the nonlinear process model. The SMC developed based on a FOPDT model of the actual process has been used for different approaches, as shown in refs , , , and − .…”

Dual-Mode Based Sliding Mode Control Approach for Nonlinear Chemical Processes

Efficient Wastewater Treatment Optimisation with Solow-Polasky-JAYA Algorithm and Self-Organising Fuzzy Sliding Mode Control

A hybrid sliding mode control based on a nonlinear PID surface for nonlinear chemical processes